28,888 research outputs found
Vectorized multigrid Poisson solver for the CDC CYBER 205
The full multigrid (FMG) method is applied to the two dimensional Poisson equation with Dirichlet boundary conditions. This has been chosen as a relatively simple test case for examining the efficiency of fully vectorizing of the multigrid method. Data structure and programming considerations and techniques are discussed, accompanied by performance details
Rotating Stellar Models Can Account for the Extended Main Sequence Turnoffs in Intermediate Age Clusters
We show that the extended main sequence turnoffs seen in intermediate age
Large Magellanic Cloud (LMC) clusters, often attributed to age spreads of
several hundred Myr, may be easily accounted for by variable stellar rotation
in a coeval population. We compute synthetic photometry for grids of rotating
stellar evolution models and interpolate them to produce isochrones at a
variety of rotation rates and orientations. An extended main sequence turnoff
naturally appears in color-magnitude diagrams at ages just under 1 Gyr, peaks
in extent between ~1 and 1.5 Gyr, and gradually disappears by around 2 Gyr in
age. We then fit our interpolated isochrones by eye to four LMC clusters with
very extended main sequence turnoffs: NGC 1783, 1806, 1846, and 1987. In each
case, stellar populations with a single age and metallicity can comfortably
account for the observed extent of the turnoff region. The new stellar models
predict almost no correlation of turnoff color with rotational vsini: the red
edge of the turnoff is populated by a combination of slow rotators and edge-on
rapid rotators.Comment: 7 pages, 4 figures, 1 table, ApJ accepted. Conclusions unchange
Bayesian Ages for Early-Type Stars from Isochrones Including Rotation, and a Possible Old Age for the Hyades
We combine recently computed models of stellar evolution using a new
treatment of rotation with a Bayesian statistical framework to constrain the
ages and other properties of early-type stars. We find good agreement for
early-type stars and clusters with known young ages, including beta Pictoris,
the Pleiades, and the Ursa Majoris Moving Group. However, we derive a
substantially older age for the Hyades open cluster (750+/-100 Myr compared to
625+/-50 Myr). This older age results from both the increase in main-sequence
lifetime with stellar rotation and from the fact that rotating models near the
main-sequence turnoff are more luminous, overlapping with slightly more massive
(and shorter-lived) nonrotating ones. Our method uses a large grid of
nonrotating models to interpolate between a much sparser rotating grid, and
also includes a detailed calculation of synthetic magnitudes as a function of
orientation. We provide a web interface at www.bayesianstellarparameters.info
where the results of our analysis may be downloaded for individual early-type
(B-V<~0.25) Hipparcos stars. The web interface accepts user-supplied parameters
for a Gaussian metallicity prior and returns posterior probability
distributions on mass, age, and orientation.Comment: 11 pages, 6 figures, ApJ accepted. Error fixed: ages -> ~15% younger.
bayesianstellarparameters.info update
The Age and Age Spread of the Praesepe and Hyades Clusters: a Consistent, ~800 Myr Picture from Rotating Stellar Models
We fit the upper main sequence of the Praesepe and Hyades open clusters using
stellar models with and without rotation. When neglecting rotation, we find
that no single isochrone can fit the entire upper main sequence at the
clusters' spectroscopic metallicity: more massive stars appear, at high
significance, to be younger than less massive stars. This discrepancy is
consistent with earlier studies, but vanishes when including stellar rotation.
The entire upper main sequence of both clusters is very well-fit by a
distribution of 800 Myr-old stars with the spectroscopically measured
[Fe/H]=0.12. The increase over the consensus age of ~600-650 Myr is due both to
the revised Solar metallicity (from to ) and to the lengthening of main sequence lifetimes and increase in
luminosities with rapid rotation. Our results show that rotation can remove the
need for large age spreads in intermediate age clusters, and that these
clusters may be significantly older than is commonly accepted. A
Hyades/Praesepe age of ~800 Myr would also require a recalibration of
rotation/activity age indicators.Comment: 6 pages, 4 figures, ApJ accepted. Replaced with accepted version,
conclusions unchange
Thin Ohmic or superconducting strip with an applied ac electric current
The complex impedance, currents, and electric and magnetic fields are
calculated as functions of resistivity and frequency or London depth for a long
thin strip with applied ac current. Both Ohmic and superconducting strips are
considered. While the inductance per unit length of the strip depends on the
strip length logarithmically, the sheet current, magnetic field, resistance,
and magnetic susceptibility are independent of this length. It is found that
the enhancement of resistance by the skin effect in thin Ohmic strips is much
weaker (logarithmic) than in thick wires.Comment: 4 pages, 3 figures, for Phys. Rev.
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